10 Most Common Questions About Agricultural Drones Explained

Why are we even talking about drones in agriculture?

Agricultural drone is not exactly a new concept. However, apps that are used by farm drones are making a big step in development these days, especially as they relate to “smart farming” – which can be a tiny new idea. According to new research, by 2050 our planet’s population is assumed to be so much greater than our current food production will need to increase by 70 percent from what it is now to feed everybody. But there is an even more challenging part: Scientists estimate there’ll be much greater demand for water and a whole lot less land available for growing crops. That means attaining a 70% growth will require an extremely technical analysis of agricultural data, the development of technology capable of collecting that information and, ultimately, using the information to speed production while maintaining quality standards. Or, to put it another way, that growth will require some significant smart farming. Along with the need for such precision is creating drones a huge portion of our agricultural future. If all this have made you think more about drone technology, I am sure you have some questions about it and I would love to answer these. I will try my best to give explanations for 10 most common questions about agricultural drones.

2. How high will these agricultural drones fly?

3. Which are the ideal weather states to fly a drone above an area?

A drone may fly under any weather condition. Drones are water resistant, but Image quality could be little worse if images have been taken during moist weather.

4. Which distances could agricultural drones fly?

It’s dependent upon the drone capacity and dimensions. Some drones have more flight time and will cover more distance in 1 flight. For example, 50 min flight period will be good for covering around 12 square kilometers.

5. What makes the distinction between pictures taken by a drone along with satellite pictures?

Drones can shoot images with a resolution down to a few cm. A drone will get high quality and greater precision of pictures in real time because they may fly beneath the clouds. In any case, a satellite just takes photos after every week or once per month.

7. What are the principal benefits farmers could receive from using agricultural drones?

Drones help farmers to optimize the use of inputs (fertilizers, seed, water), to respond more quickly to risks (weeds, fungi, pests), to conserve time harvest scouting (affirm treatment/actions accepted), to enhance variable-rate prescriptions in real time and estimate return in the field.

8. Which are the benefits of mixing smart agricultural machines and agricultural drones?

As of now, drones can’t communicate directly with agricultural equipment. Drones fly across the area and shoot high-resolution images. The information accumulated is sent to the cloud/software and made accessible to the client. Due to the information, the consumer can pick the information wanted in the pictures and make distinct prescription maps based upon the actions the farmer would like to perform in the area. The maps can then be uploaded to the farm gear which will correct the number of inputs (fertilizers, seeds, pesticides) which would have to be implemented in the area.

9. What will be the expectations for the market in the next several years?

It’s anticipated that using drones will expand considerably in farming since they offer you a vast assortment of programs to enhance precision agriculture.

10. What are the prices of agricultural drones?

A little drone for standard use will start as low as $500. For the agricultural industry, little drones with no specific technology will go from $2,000 to $3,000. Really high-tech drones used particularly for agriculture begin at $10, 000.

What do expect in the future?

There’s a whole lot of room for expansion with agricultural drones. With technology constantly improving, imaging of these plants will have to improve also. Together with the information that drones record from the plants, the farmers have the ability to examine their crops and make informed decisions about how best to proceed given the precise crop info. Computer software programs for assessing and adjusting crop production have the potential to grow in this market. Close your eyes and imagine a farmer having the ability to fly a drone over their plants, be able to correctly identify a problem in a particular place, and then take the required actions to resolve the issue. Having this capability enables the farmer to have more time to concentrate on the big picture of production rather than spending so much time surveying their crops. The drones allow for real-time information to be sent back to the user to be scrutinized, which for a farmer, is a massive game changer.